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Mesoporous Silica Nanoparticle

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Mesoporous Silica Nanoparticle Specification

Weight
Dependent on quantity

Operating Temperature
Up to 800C

Viscosity
Not applicable (solid form)

Thickness
~50 nm (wall thickness)

Molecular Formula
SiO2

Length
20 200 nm (particle size)

Hardness
6 7 (Mohs scale)

Alkali Resistance
Moderate

Acid Resistance
Excellent (high resistance)

Color
White

Moisture Content
<0.5%

Particle Size
50 200 nm

EINECS No
231-545-4

Ph Level
6.5 7.5

Chemical Name
Mesoporous Silica Nanoparticle

Other Names
MSN, Mesoporous Silica

CAS No
7631-86-9

Purity
>99%

Appearance
White powder

Physical State
Solid

Raw Material
Silicon dioxide

Molecular Weight
60.08 g/mol

Dissolving Time
Within minutes in suitable solvents

Insoluble %
<0.01%

Mesoporous Silica Nanoparticle Trade Information

Delivery Time
15 Days

Main Export Market(s)
Australia, North America, Middle East, Asia, Eastern Europe

Main Domestic Market
All India

About Mesoporous Silica Nanoparticle

NanoXact Mesoporous Silica Nanospheres

Pore diameter: 3 nm 1 nm
Surface area: 500 to 1200 m2/g
Zeta potential: 5 to 30 mV
pH of solution: n/a
Particle surface: silanol
Solvent: ethanol
Peak wavelength (max): n/a
diameter: 100nm
concentration: 5 mg/mL in ethanol
Volume: Volume: 5ml, 30ml, 100ml

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Exceptional Microstructure

Mesoporous Silica Nanoparticles feature an intricate and highly ordered pore network, offering pore diameters from 2 to 10 nm. This microstructure delivers an expansive surface area, crucial for efficient cargo loading in drug delivery and active site exposure in catalysis and adsorption.

Advanced Synthesis for Superior Purity

Produced via the sol-gel method, MSNs achieve a purity of over 99%. The synthesis and purification steps, including filtration and centrifugation, ensure minimal contamination, resulting in consistent particle dimensions and exceptional quality suitable for research and industrial applications.

Broad Application Range

MSNs stand out in fields like drug delivery, catalysis, adsorption, and biomedical research. Their stable physical properties, excellent acid resistance, and high surface area make them indispensable for targeted therapies, molecular separation, and novel material development.

FAQs of Mesoporous Silica Nanoparticle:

Q: How are Mesoporous Silica Nanoparticles synthesized?

A: Mesoporous Silica Nanoparticles are created through the sol-gel process, which enables precise control over pore size, particle dimensions, and microstructure. This method achieves highly ordered pores and ensures high purity.

Q: What are the main applications of Mesoporous Silica Nanoparticles?

A: MSNs are widely used in drug delivery, catalysis, adsorption, and biomedical research. Their large surface area and ordered pore networks make them ideal for carrying therapeutic agents, supporting catalysts, and adsorbing molecules efficiently.

Q: When should Mesoporous Silica Nanoparticles be stored to maintain stability?

A: To retain their effectiveness and stability, MSNs should be stored in a sealed HDPE bottle in a cool, dry place. Proper storage ensures a shelf life of up to 24 months without degradation.

Q: Where are MSNs typically supplied and packaged?

A: MSNs are distributed, manufactured, and supplied by reputable entities in India, and are packaged in sealed HDPE bottles to protect them from moisture and contaminants during storage and transit.

Q: What safety precautions are necessary when handling MSNs?

A: When handling Mesoporous Silica Nanoparticles, its important to wear gloves and avoid inhalation of the powder. Following standard laboratory safety measures minimizes exposure risks and maintains safe usage conditions.

Q: How is the purification of Mesoporous Silica Nanoparticles carried out?

A: Purification of MSNs involves centrifugation and filtration processes to remove impurities, ensuring a high-purity final product suitable for sensitive applications such as biomedical research and catalysis.

Q: What are the key benefits of using Mesoporous Silica Nanoparticles in research and industry?

A: MSNs deliver exceptional benefits such as high stability under normal conditions, excellent acid resistance, substantial surface area, and rapid dissolving in appropriate solventsmaking them highly versatile for advanced technological applications.

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